/** * @license Angular v12.2.13 * (c) 2010-2021 Google LLC. https://angular.io/ * License: MIT */ import { getDebugNode, RendererFactory2, ɵstringify, ɵReflectionCapabilities, Directive, Component, Pipe, NgModule, ɵgetInjectableDef, resolveForwardRef, ɵNG_COMP_DEF, ɵRender3NgModuleRef, ApplicationInitStatus, LOCALE_ID, ɵDEFAULT_LOCALE_ID, ɵsetLocaleId, ɵRender3ComponentFactory, ɵcompileComponent, ɵNG_DIR_DEF, ɵcompileDirective, ɵNG_PIPE_DEF, ɵcompilePipe, ɵNG_MOD_DEF, ɵtransitiveScopesFor, ɵpatchComponentDefWithScope, ɵNG_INJ_DEF, ɵcompileNgModuleDefs, NgZone, Compiler, COMPILER_OPTIONS, ɵNgModuleFactory, ModuleWithComponentFactories, InjectionToken, Injector, InjectFlags, ɵresetCompiledComponents, ɵflushModuleScopingQueueAsMuchAsPossible, Injectable, ɵclearOverrides, ɵoverrideComponentView, ɵINJECTOR_SCOPE, Optional, SkipSelf, ɵoverrideProvider, ɵivyEnabled } from '@angular/core'; import { __awaiter } from 'tslib'; import { ResourceLoader } from '@angular/compiler'; /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Wraps a test function in an asynchronous test zone. The test will automatically * complete when all asynchronous calls within this zone are done. Can be used * to wrap an {@link inject} call. * * Example: * * ``` * it('...', waitForAsync(inject([AClass], (object) => { * object.doSomething.then(() => { * expect(...); * }) * }); * ``` * * @publicApi */ function waitForAsync(fn) { const _Zone = typeof Zone !== 'undefined' ? Zone : null; if (!_Zone) { return function () { return Promise.reject('Zone is needed for the waitForAsync() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js'); }; } const asyncTest = _Zone && _Zone[_Zone.__symbol__('asyncTest')]; if (typeof asyncTest === 'function') { return asyncTest(fn); } return function () { return Promise.reject('zone-testing.js is needed for the async() test helper but could not be found. ' + 'Please make sure that your environment includes zone.js/testing'); }; } /** * @deprecated use `waitForAsync()`, (expected removal in v12) * @see {@link waitForAsync} * @publicApi * */ function async(fn) { return waitForAsync(fn); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Fixture for debugging and testing a component. * * @publicApi */ class ComponentFixture { constructor(componentRef, ngZone, _autoDetect) { this.componentRef = componentRef; this.ngZone = ngZone; this._autoDetect = _autoDetect; this._isStable = true; this._isDestroyed = false; this._resolve = null; this._promise = null; this._onUnstableSubscription = null; this._onStableSubscription = null; this._onMicrotaskEmptySubscription = null; this._onErrorSubscription = null; this.changeDetectorRef = componentRef.changeDetectorRef; this.elementRef = componentRef.location; this.debugElement = getDebugNode(this.elementRef.nativeElement); this.componentInstance = componentRef.instance; this.nativeElement = this.elementRef.nativeElement; this.componentRef = componentRef; this.ngZone = ngZone; if (ngZone) { // Create subscriptions outside the NgZone so that the callbacks run oustide // of NgZone. ngZone.runOutsideAngular(() => { this._onUnstableSubscription = ngZone.onUnstable.subscribe({ next: () => { this._isStable = false; } }); this._onMicrotaskEmptySubscription = ngZone.onMicrotaskEmpty.subscribe({ next: () => { if (this._autoDetect) { // Do a change detection run with checkNoChanges set to true to check // there are no changes on the second run. this.detectChanges(true); } } }); this._onStableSubscription = ngZone.onStable.subscribe({ next: () => { this._isStable = true; // Check whether there is a pending whenStable() completer to resolve. if (this._promise !== null) { // If so check whether there are no pending macrotasks before resolving. // Do this check in the next tick so that ngZone gets a chance to update the state of // pending macrotasks. scheduleMicroTask(() => { if (!ngZone.hasPendingMacrotasks) { if (this._promise !== null) { this._resolve(true); this._resolve = null; this._promise = null; } } }); } } }); this._onErrorSubscription = ngZone.onError.subscribe({ next: (error) => { throw error; } }); }); } } _tick(checkNoChanges) { this.changeDetectorRef.detectChanges(); if (checkNoChanges) { this.checkNoChanges(); } } /** * Trigger a change detection cycle for the component. */ detectChanges(checkNoChanges = true) { if (this.ngZone != null) { // Run the change detection inside the NgZone so that any async tasks as part of the change // detection are captured by the zone and can be waited for in isStable. this.ngZone.run(() => { this._tick(checkNoChanges); }); } else { // Running without zone. Just do the change detection. this._tick(checkNoChanges); } } /** * Do a change detection run to make sure there were no changes. */ checkNoChanges() { this.changeDetectorRef.checkNoChanges(); } /** * Set whether the fixture should autodetect changes. * * Also runs detectChanges once so that any existing change is detected. */ autoDetectChanges(autoDetect = true) { if (this.ngZone == null) { throw new Error('Cannot call autoDetectChanges when ComponentFixtureNoNgZone is set'); } this._autoDetect = autoDetect; this.detectChanges(); } /** * Return whether the fixture is currently stable or has async tasks that have not been completed * yet. */ isStable() { return this._isStable && !this.ngZone.hasPendingMacrotasks; } /** * Get a promise that resolves when the fixture is stable. * * This can be used to resume testing after events have triggered asynchronous activity or * asynchronous change detection. */ whenStable() { if (this.isStable()) { return Promise.resolve(false); } else if (this._promise !== null) { return this._promise; } else { this._promise = new Promise(res => { this._resolve = res; }); return this._promise; } } _getRenderer() { if (this._renderer === undefined) { this._renderer = this.componentRef.injector.get(RendererFactory2, null); } return this._renderer; } /** * Get a promise that resolves when the ui state is stable following animations. */ whenRenderingDone() { const renderer = this._getRenderer(); if (renderer && renderer.whenRenderingDone) { return renderer.whenRenderingDone(); } return this.whenStable(); } /** * Trigger component destruction. */ destroy() { if (!this._isDestroyed) { this.componentRef.destroy(); if (this._onUnstableSubscription != null) { this._onUnstableSubscription.unsubscribe(); this._onUnstableSubscription = null; } if (this._onStableSubscription != null) { this._onStableSubscription.unsubscribe(); this._onStableSubscription = null; } if (this._onMicrotaskEmptySubscription != null) { this._onMicrotaskEmptySubscription.unsubscribe(); this._onMicrotaskEmptySubscription = null; } if (this._onErrorSubscription != null) { this._onErrorSubscription.unsubscribe(); this._onErrorSubscription = null; } this._isDestroyed = true; } } } function scheduleMicroTask(fn) { Zone.current.scheduleMicroTask('scheduleMicrotask', fn); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ const _Zone = typeof Zone !== 'undefined' ? Zone : null; const fakeAsyncTestModule = _Zone && _Zone[_Zone.__symbol__('fakeAsyncTest')]; const fakeAsyncTestModuleNotLoadedErrorMessage = `zone-testing.js is needed for the fakeAsync() test helper but could not be found. Please make sure that your environment includes zone.js/testing`; /** * Clears out the shared fake async zone for a test. * To be called in a global `beforeEach`. * * @publicApi */ function resetFakeAsyncZone() { if (fakeAsyncTestModule) { return fakeAsyncTestModule.resetFakeAsyncZone(); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * Wraps a function to be executed in the `fakeAsync` zone: * - Microtasks are manually executed by calling `flushMicrotasks()`. * - Timers are synchronous; `tick()` simulates the asynchronous passage of time. * * If there are any pending timers at the end of the function, an exception is thrown. * * Can be used to wrap `inject()` calls. * * @param fn The function that you want to wrap in the `fakeAysnc` zone. * * @usageNotes * ### Example * * {@example core/testing/ts/fake_async.ts region='basic'} * * * @returns The function wrapped to be executed in the `fakeAsync` zone. * Any arguments passed when calling this returned function will be passed through to the `fn` * function in the parameters when it is called. * * @publicApi */ function fakeAsync(fn) { if (fakeAsyncTestModule) { return fakeAsyncTestModule.fakeAsync(fn); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * Simulates the asynchronous passage of time for the timers in the `fakeAsync` zone. * * The microtasks queue is drained at the very start of this function and after any timer callback * has been executed. * * @param millis The number of milliseconds to advance the virtual timer. * @param tickOptions The options to pass to the `tick()` function. * * @usageNotes * * The `tick()` option is a flag called `processNewMacroTasksSynchronously`, * which determines whether or not to invoke new macroTasks. * * If you provide a `tickOptions` object, but do not specify a * `processNewMacroTasksSynchronously` property (`tick(100, {})`), * then `processNewMacroTasksSynchronously` defaults to true. * * If you omit the `tickOptions` parameter (`tick(100))`), then * `tickOptions` defaults to `{processNewMacroTasksSynchronously: true}`. * * ### Example * * {@example core/testing/ts/fake_async.ts region='basic'} * * The following example includes a nested timeout (new macroTask), and * the `tickOptions` parameter is allowed to default. In this case, * `processNewMacroTasksSynchronously` defaults to true, and the nested * function is executed on each tick. * * ``` * it ('test with nested setTimeout', fakeAsync(() => { * let nestedTimeoutInvoked = false; * function funcWithNestedTimeout() { * setTimeout(() => { * nestedTimeoutInvoked = true; * }); * }; * setTimeout(funcWithNestedTimeout); * tick(); * expect(nestedTimeoutInvoked).toBe(true); * })); * ``` * * In the following case, `processNewMacroTasksSynchronously` is explicitly * set to false, so the nested timeout function is not invoked. * * ``` * it ('test with nested setTimeout', fakeAsync(() => { * let nestedTimeoutInvoked = false; * function funcWithNestedTimeout() { * setTimeout(() => { * nestedTimeoutInvoked = true; * }); * }; * setTimeout(funcWithNestedTimeout); * tick(0, {processNewMacroTasksSynchronously: false}); * expect(nestedTimeoutInvoked).toBe(false); * })); * ``` * * * @publicApi */ function tick(millis = 0, tickOptions = { processNewMacroTasksSynchronously: true }) { if (fakeAsyncTestModule) { return fakeAsyncTestModule.tick(millis, tickOptions); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * Simulates the asynchronous passage of time for the timers in the `fakeAsync` zone by * draining the macrotask queue until it is empty. * * @param maxTurns The maximum number of times the scheduler attempts to clear its queue before * throwing an error. * @returns The simulated time elapsed, in milliseconds. * * @publicApi */ function flush(maxTurns) { if (fakeAsyncTestModule) { return fakeAsyncTestModule.flush(maxTurns); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * Discard all remaining periodic tasks. * * @publicApi */ function discardPeriodicTasks() { if (fakeAsyncTestModule) { return fakeAsyncTestModule.discardPeriodicTasks(); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * Flush any pending microtasks. * * @publicApi */ function flushMicrotasks() { if (fakeAsyncTestModule) { return fakeAsyncTestModule.flushMicrotasks(); } throw new Error(fakeAsyncTestModuleNotLoadedErrorMessage); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Used to resolve resource URLs on `@Component` when used with JIT compilation. * * Example: * ``` * @Component({ * selector: 'my-comp', * templateUrl: 'my-comp.html', // This requires asynchronous resolution * }) * class MyComponent{ * } * * // Calling `renderComponent` will fail because `renderComponent` is a synchronous process * // and `MyComponent`'s `@Component.templateUrl` needs to be resolved asynchronously. * * // Calling `resolveComponentResources()` will resolve `@Component.templateUrl` into * // `@Component.template`, which allows `renderComponent` to proceed in a synchronous manner. * * // Use browser's `fetch()` function as the default resource resolution strategy. * resolveComponentResources(fetch).then(() => { * // After resolution all URLs have been converted into `template` strings. * renderComponent(MyComponent); * }); * * ``` * * NOTE: In AOT the resolution happens during compilation, and so there should be no need * to call this method outside JIT mode. * * @param resourceResolver a function which is responsible for returning a `Promise` to the * contents of the resolved URL. Browser's `fetch()` method is a good default implementation. */ function resolveComponentResources(resourceResolver) { // Store all promises which are fetching the resources. const componentResolved = []; // Cache so that we don't fetch the same resource more than once. const urlMap = new Map(); function cachedResourceResolve(url) { let promise = urlMap.get(url); if (!promise) { const resp = resourceResolver(url); urlMap.set(url, promise = resp.then(unwrapResponse)); } return promise; } componentResourceResolutionQueue.forEach((component, type) => { const promises = []; if (component.templateUrl) { promises.push(cachedResourceResolve(component.templateUrl).then((template) => { component.template = template; })); } const styleUrls = component.styleUrls; const styles = component.styles || (component.styles = []); const styleOffset = component.styles.length; styleUrls && styleUrls.forEach((styleUrl, index) => { styles.push(''); // pre-allocate array. promises.push(cachedResourceResolve(styleUrl).then((style) => { styles[styleOffset + index] = style; styleUrls.splice(styleUrls.indexOf(styleUrl), 1); if (styleUrls.length == 0) { component.styleUrls = undefined; } })); }); const fullyResolved = Promise.all(promises).then(() => componentDefResolved(type)); componentResolved.push(fullyResolved); }); clearResolutionOfComponentResourcesQueue(); return Promise.all(componentResolved).then(() => undefined); } let componentResourceResolutionQueue = new Map(); // Track when existing ɵcmp for a Type is waiting on resources. const componentDefPendingResolution = new Set(); function maybeQueueResolutionOfComponentResources(type, metadata) { if (componentNeedsResolution(metadata)) { componentResourceResolutionQueue.set(type, metadata); componentDefPendingResolution.add(type); } } function isComponentDefPendingResolution(type) { return componentDefPendingResolution.has(type); } function componentNeedsResolution(component) { return !!((component.templateUrl && !component.hasOwnProperty('template')) || component.styleUrls && component.styleUrls.length); } function clearResolutionOfComponentResourcesQueue() { const old = componentResourceResolutionQueue; componentResourceResolutionQueue = new Map(); return old; } function restoreComponentResolutionQueue(queue) { componentDefPendingResolution.clear(); queue.forEach((_, type) => componentDefPendingResolution.add(type)); componentResourceResolutionQueue = queue; } function isComponentResourceResolutionQueueEmpty() { return componentResourceResolutionQueue.size === 0; } function unwrapResponse(response) { return typeof response == 'string' ? response : response.text(); } function componentDefResolved(type) { componentDefPendingResolution.delete(type); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ let _nextReferenceId = 0; class MetadataOverrider { constructor() { this._references = new Map(); } /** * Creates a new instance for the given metadata class * based on an old instance and overrides. */ overrideMetadata(metadataClass, oldMetadata, override) { const props = {}; if (oldMetadata) { _valueProps(oldMetadata).forEach((prop) => props[prop] = oldMetadata[prop]); } if (override.set) { if (override.remove || override.add) { throw new Error(`Cannot set and add/remove ${ɵstringify(metadataClass)} at the same time!`); } setMetadata(props, override.set); } if (override.remove) { removeMetadata(props, override.remove, this._references); } if (override.add) { addMetadata(props, override.add); } return new metadataClass(props); } } function removeMetadata(metadata, remove, references) { const removeObjects = new Set(); for (const prop in remove) { const removeValue = remove[prop]; if (Array.isArray(removeValue)) { removeValue.forEach((value) => { removeObjects.add(_propHashKey(prop, value, references)); }); } else { removeObjects.add(_propHashKey(prop, removeValue, references)); } } for (const prop in metadata) { const propValue = metadata[prop]; if (Array.isArray(propValue)) { metadata[prop] = propValue.filter((value) => !removeObjects.has(_propHashKey(prop, value, references))); } else { if (removeObjects.has(_propHashKey(prop, propValue, references))) { metadata[prop] = undefined; } } } } function addMetadata(metadata, add) { for (const prop in add) { const addValue = add[prop]; const propValue = metadata[prop]; if (propValue != null && Array.isArray(propValue)) { metadata[prop] = propValue.concat(addValue); } else { metadata[prop] = addValue; } } } function setMetadata(metadata, set) { for (const prop in set) { metadata[prop] = set[prop]; } } function _propHashKey(propName, propValue, references) { const replacer = (key, value) => { if (typeof value === 'function') { value = _serializeReference(value, references); } return value; }; return `${propName}:${JSON.stringify(propValue, replacer)}`; } function _serializeReference(ref, references) { let id = references.get(ref); if (!id) { id = `${ɵstringify(ref)}${_nextReferenceId++}`; references.set(ref, id); } return id; } function _valueProps(obj) { const props = []; // regular public props Object.keys(obj).forEach((prop) => { if (!prop.startsWith('_')) { props.push(prop); } }); // getters let proto = obj; while (proto = Object.getPrototypeOf(proto)) { Object.keys(proto).forEach((protoProp) => { const desc = Object.getOwnPropertyDescriptor(proto, protoProp); if (!protoProp.startsWith('_') && desc && 'get' in desc) { props.push(protoProp); } }); } return props; } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ const reflection = new ɵReflectionCapabilities(); /** * Allows to override ivy metadata for tests (via the `TestBed`). */ class OverrideResolver { constructor() { this.overrides = new Map(); this.resolved = new Map(); } addOverride(type, override) { const overrides = this.overrides.get(type) || []; overrides.push(override); this.overrides.set(type, overrides); this.resolved.delete(type); } setOverrides(overrides) { this.overrides.clear(); overrides.forEach(([type, override]) => { this.addOverride(type, override); }); } getAnnotation(type) { const annotations = reflection.annotations(type); // Try to find the nearest known Type annotation and make sure that this annotation is an // instance of the type we are looking for, so we can use it for resolution. Note: there might // be multiple known annotations found due to the fact that Components can extend Directives (so // both Directive and Component annotations would be present), so we always check if the known // annotation has the right type. for (let i = annotations.length - 1; i >= 0; i--) { const annotation = annotations[i]; const isKnownType = annotation instanceof Directive || annotation instanceof Component || annotation instanceof Pipe || annotation instanceof NgModule; if (isKnownType) { return annotation instanceof this.type ? annotation : null; } } return null; } resolve(type) { let resolved = this.resolved.get(type) || null; if (!resolved) { resolved = this.getAnnotation(type); if (resolved) { const overrides = this.overrides.get(type); if (overrides) { const overrider = new MetadataOverrider(); overrides.forEach(override => { resolved = overrider.overrideMetadata(this.type, resolved, override); }); } } this.resolved.set(type, resolved); } return resolved; } } class DirectiveResolver extends OverrideResolver { get type() { return Directive; } } class ComponentResolver extends OverrideResolver { get type() { return Component; } } class PipeResolver extends OverrideResolver { get type() { return Pipe; } } class NgModuleResolver extends OverrideResolver { get type() { return NgModule; } } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ var TestingModuleOverride; (function (TestingModuleOverride) { TestingModuleOverride[TestingModuleOverride["DECLARATION"] = 0] = "DECLARATION"; TestingModuleOverride[TestingModuleOverride["OVERRIDE_TEMPLATE"] = 1] = "OVERRIDE_TEMPLATE"; })(TestingModuleOverride || (TestingModuleOverride = {})); function isTestingModuleOverride(value) { return value === TestingModuleOverride.DECLARATION || value === TestingModuleOverride.OVERRIDE_TEMPLATE; } class R3TestBedCompiler { constructor(platform, additionalModuleTypes) { this.platform = platform; this.additionalModuleTypes = additionalModuleTypes; this.originalComponentResolutionQueue = null; // Testing module configuration this.declarations = []; this.imports = []; this.providers = []; this.schemas = []; // Queues of components/directives/pipes that should be recompiled. this.pendingComponents = new Set(); this.pendingDirectives = new Set(); this.pendingPipes = new Set(); // Keep track of all components and directives, so we can patch Providers onto defs later. this.seenComponents = new Set(); this.seenDirectives = new Set(); // Keep track of overridden modules, so that we can collect all affected ones in the module tree. this.overriddenModules = new Set(); // Store resolved styles for Components that have template overrides present and `styleUrls` // defined at the same time. this.existingComponentStyles = new Map(); this.resolvers = initResolvers(); this.componentToModuleScope = new Map(); // Map that keeps initial version of component/directive/pipe defs in case // we compile a Type again, thus overriding respective static fields. This is // required to make sure we restore defs to their initial states between test runs // TODO: we should support the case with multiple defs on a type this.initialNgDefs = new Map(); // Array that keeps cleanup operations for initial versions of component/directive/pipe/module // defs in case TestBed makes changes to the originals. this.defCleanupOps = []; this._injector = null; this.compilerProviders = null; this.providerOverrides = []; this.rootProviderOverrides = []; // Overrides for injectables with `{providedIn: SomeModule}` need to be tracked and added to that // module's provider list. this.providerOverridesByModule = new Map(); this.providerOverridesByToken = new Map(); this.moduleProvidersOverridden = new Set(); this.testModuleRef = null; class DynamicTestModule { } this.testModuleType = DynamicTestModule; } setCompilerProviders(providers) { this.compilerProviders = providers; this._injector = null; } configureTestingModule(moduleDef) { // Enqueue any compilation tasks for the directly declared component. if (moduleDef.declarations !== undefined) { this.queueTypeArray(moduleDef.declarations, TestingModuleOverride.DECLARATION); this.declarations.push(...moduleDef.declarations); } // Enqueue any compilation tasks for imported modules. if (moduleDef.imports !== undefined) { this.queueTypesFromModulesArray(moduleDef.imports); this.imports.push(...moduleDef.imports); } if (moduleDef.providers !== undefined) { this.providers.push(...moduleDef.providers); } if (moduleDef.schemas !== undefined) { this.schemas.push(...moduleDef.schemas); } } overrideModule(ngModule, override) { this.overriddenModules.add(ngModule); // Compile the module right away. this.resolvers.module.addOverride(ngModule, override); const metadata = this.resolvers.module.resolve(ngModule); if (metadata === null) { throw invalidTypeError(ngModule.name, 'NgModule'); } this.recompileNgModule(ngModule, metadata); // At this point, the module has a valid module def (ɵmod), but the override may have introduced // new declarations or imported modules. Ingest any possible new types and add them to the // current queue. this.queueTypesFromModulesArray([ngModule]); } overrideComponent(component, override) { this.resolvers.component.addOverride(component, override); this.pendingComponents.add(component); } overrideDirective(directive, override) { this.resolvers.directive.addOverride(directive, override); this.pendingDirectives.add(directive); } overridePipe(pipe, override) { this.resolvers.pipe.addOverride(pipe, override); this.pendingPipes.add(pipe); } overrideProvider(token, provider) { let providerDef; if (provider.useFactory !== undefined) { providerDef = { provide: token, useFactory: provider.useFactory, deps: provider.deps || [], multi: provider.multi }; } else if (provider.useValue !== undefined) { providerDef = { provide: token, useValue: provider.useValue, multi: provider.multi }; } else { providerDef = { provide: token }; } const injectableDef = typeof token !== 'string' ? ɵgetInjectableDef(token) : null; const providedIn = injectableDef === null ? null : resolveForwardRef(injectableDef.providedIn); const overridesBucket = providedIn === 'root' ? this.rootProviderOverrides : this.providerOverrides; overridesBucket.push(providerDef); // Keep overrides grouped by token as well for fast lookups using token this.providerOverridesByToken.set(token, providerDef); if (injectableDef !== null && providedIn !== null && typeof providedIn !== 'string') { const existingOverrides = this.providerOverridesByModule.get(providedIn); if (existingOverrides !== undefined) { existingOverrides.push(providerDef); } else { this.providerOverridesByModule.set(providedIn, [providerDef]); } } } overrideTemplateUsingTestingModule(type, template) { const def = type[ɵNG_COMP_DEF]; const hasStyleUrls = () => { const metadata = this.resolvers.component.resolve(type); return !!metadata.styleUrls && metadata.styleUrls.length > 0; }; const overrideStyleUrls = !!def && !isComponentDefPendingResolution(type) && hasStyleUrls(); // In Ivy, compiling a component does not require knowing the module providing the // component's scope, so overrideTemplateUsingTestingModule can be implemented purely via // overrideComponent. Important: overriding template requires full Component re-compilation, // which may fail in case styleUrls are also present (thus Component is considered as required // resolution). In order to avoid this, we preemptively set styleUrls to an empty array, // preserve current styles available on Component def and restore styles back once compilation // is complete. const override = overrideStyleUrls ? { template, styles: [], styleUrls: [] } : { template }; this.overrideComponent(type, { set: override }); if (overrideStyleUrls && def.styles && def.styles.length > 0) { this.existingComponentStyles.set(type, def.styles); } // Set the component's scope to be the testing module. this.componentToModuleScope.set(type, TestingModuleOverride.OVERRIDE_TEMPLATE); } compileComponents() { return __awaiter(this, void 0, void 0, function* () { this.clearComponentResolutionQueue(); // Run compilers for all queued types. let needsAsyncResources = this.compileTypesSync(); // compileComponents() should not be async unless it needs to be. if (needsAsyncResources) { let resourceLoader; let resolver = (url) => { if (!resourceLoader) { resourceLoader = this.injector.get(ResourceLoader); } return Promise.resolve(resourceLoader.get(url)); }; yield resolveComponentResources(resolver); } }); } finalize() { // One last compile this.compileTypesSync(); // Create the testing module itself. this.compileTestModule(); this.applyTransitiveScopes(); this.applyProviderOverrides(); // Patch previously stored `styles` Component values (taken from ɵcmp), in case these // Components have `styleUrls` fields defined and template override was requested. this.patchComponentsWithExistingStyles(); // Clear the componentToModuleScope map, so that future compilations don't reset the scope of // every component. this.componentToModuleScope.clear(); const parentInjector = this.platform.injector; this.testModuleRef = new ɵRender3NgModuleRef(this.testModuleType, parentInjector); // ApplicationInitStatus.runInitializers() is marked @internal to core. // Cast it to any before accessing it. this.testModuleRef.injector.get(ApplicationInitStatus).runInitializers(); // Set locale ID after running app initializers, since locale information might be updated while // running initializers. This is also consistent with the execution order while bootstrapping an // app (see `packages/core/src/application_ref.ts` file). const localeId = this.testModuleRef.injector.get(LOCALE_ID, ɵDEFAULT_LOCALE_ID); ɵsetLocaleId(localeId); return this.testModuleRef; } /** * @internal */ _compileNgModuleSync(moduleType) { this.queueTypesFromModulesArray([moduleType]); this.compileTypesSync(); this.applyProviderOverrides(); this.applyProviderOverridesToModule(moduleType); this.applyTransitiveScopes(); } /** * @internal */ _compileNgModuleAsync(moduleType) { return __awaiter(this, void 0, void 0, function* () { this.queueTypesFromModulesArray([moduleType]); yield this.compileComponents(); this.applyProviderOverrides(); this.applyProviderOverridesToModule(moduleType); this.applyTransitiveScopes(); }); } /** * @internal */ _getModuleResolver() { return this.resolvers.module; } /** * @internal */ _getComponentFactories(moduleType) { return maybeUnwrapFn(moduleType.ɵmod.declarations).reduce((factories, declaration) => { const componentDef = declaration.ɵcmp; componentDef && factories.push(new ɵRender3ComponentFactory(componentDef, this.testModuleRef)); return factories; }, []); } compileTypesSync() { // Compile all queued components, directives, pipes. let needsAsyncResources = false; this.pendingComponents.forEach(declaration => { needsAsyncResources = needsAsyncResources || isComponentDefPendingResolution(declaration); const metadata = this.resolvers.component.resolve(declaration); if (metadata === null) { throw invalidTypeError(declaration.name, 'Component'); } this.maybeStoreNgDef(ɵNG_COMP_DEF, declaration); ɵcompileComponent(declaration, metadata); }); this.pendingComponents.clear(); this.pendingDirectives.forEach(declaration => { const metadata = this.resolvers.directive.resolve(declaration); if (metadata === null) { throw invalidTypeError(declaration.name, 'Directive'); } this.maybeStoreNgDef(ɵNG_DIR_DEF, declaration); ɵcompileDirective(declaration, metadata); }); this.pendingDirectives.clear(); this.pendingPipes.forEach(declaration => { const metadata = this.resolvers.pipe.resolve(declaration); if (metadata === null) { throw invalidTypeError(declaration.name, 'Pipe'); } this.maybeStoreNgDef(ɵNG_PIPE_DEF, declaration); ɵcompilePipe(declaration, metadata); }); this.pendingPipes.clear(); return needsAsyncResources; } applyTransitiveScopes() { if (this.overriddenModules.size > 0) { // Module overrides (via `TestBed.overrideModule`) might affect scopes that were previously // calculated and stored in `transitiveCompileScopes`. If module overrides are present, // collect all affected modules and reset scopes to force their re-calculation. const testingModuleDef = this.testModuleType[ɵNG_MOD_DEF]; const affectedModules = this.collectModulesAffectedByOverrides(testingModuleDef.imports); if (affectedModules.size > 0) { affectedModules.forEach(moduleType => { this.storeFieldOfDefOnType(moduleType, ɵNG_MOD_DEF, 'transitiveCompileScopes'); moduleType[ɵNG_MOD_DEF].transitiveCompileScopes = null; }); } } const moduleToScope = new Map(); const getScopeOfModule = (moduleType) => { if (!moduleToScope.has(moduleType)) { const isTestingModule = isTestingModuleOverride(moduleType); const realType = isTestingModule ? this.testModuleType : moduleType; moduleToScope.set(moduleType, ɵtransitiveScopesFor(realType)); } return moduleToScope.get(moduleType); }; this.componentToModuleScope.forEach((moduleType, componentType) => { const moduleScope = getScopeOfModule(moduleType); this.storeFieldOfDefOnType(componentType, ɵNG_COMP_DEF, 'directiveDefs'); this.storeFieldOfDefOnType(componentType, ɵNG_COMP_DEF, 'pipeDefs'); // `tView` that is stored on component def contains information about directives and pipes // that are in the scope of this component. Patching component scope will cause `tView` to be // changed. Store original `tView` before patching scope, so the `tView` (including scope // information) is restored back to its previous/original state before running next test. this.storeFieldOfDefOnType(componentType, ɵNG_COMP_DEF, 'tView'); ɵpatchComponentDefWithScope(componentType.ɵcmp, moduleScope); }); this.componentToModuleScope.clear(); } applyProviderOverrides() { const maybeApplyOverrides = (field) => (type) => { const resolver = field === ɵNG_COMP_DEF ? this.resolvers.component : this.resolvers.directive; const metadata = resolver.resolve(type); if (this.hasProviderOverrides(metadata.providers)) { this.patchDefWithProviderOverrides(type, field); } }; this.seenComponents.forEach(maybeApplyOverrides(ɵNG_COMP_DEF)); this.seenDirectives.forEach(maybeApplyOverrides(ɵNG_DIR_DEF)); this.seenComponents.clear(); this.seenDirectives.clear(); } applyProviderOverridesToModule(moduleType) { if (this.moduleProvidersOverridden.has(moduleType)) { return; } this.moduleProvidersOverridden.add(moduleType); const injectorDef = moduleType[ɵNG_INJ_DEF]; if (this.providerOverridesByToken.size > 0) { const providers = [ ...injectorDef.providers, ...(this.providerOverridesByModule.get(moduleType) || []) ]; if (this.hasProviderOverrides(providers)) { this.maybeStoreNgDef(ɵNG_INJ_DEF, moduleType); this.storeFieldOfDefOnType(moduleType, ɵNG_INJ_DEF, 'providers'); injectorDef.providers = this.getOverriddenProviders(providers); } // Apply provider overrides to imported modules recursively const moduleDef = moduleType[ɵNG_MOD_DEF]; const imports = maybeUnwrapFn(moduleDef.imports); for (const importedModule of imports) { this.applyProviderOverridesToModule(importedModule); } // Also override the providers on any ModuleWithProviders imports since those don't appear in // the moduleDef. for (const importedModule of flatten(injectorDef.imports)) { if (isModuleWithProviders(importedModule)) { this.defCleanupOps.push({ object: importedModule, fieldName: 'providers', originalValue: importedModule.providers }); importedModule.providers = this.getOverriddenProviders(importedModule.providers); } } } } patchComponentsWithExistingStyles() { this.existingComponentStyles.forEach((styles, type) => type[ɵNG_COMP_DEF].styles = styles); this.existingComponentStyles.clear(); } queueTypeArray(arr, moduleType) { for (const value of arr) { if (Array.isArray(value)) { this.queueTypeArray(value, moduleType); } else { this.queueType(value, moduleType); } } } recompileNgModule(ngModule, metadata) { // Cache the initial ngModuleDef as it will be overwritten. this.maybeStoreNgDef(ɵNG_MOD_DEF, ngModule); this.maybeStoreNgDef(ɵNG_INJ_DEF, ngModule); ɵcompileNgModuleDefs(ngModule, metadata); } queueType(type, moduleType) { const component = this.resolvers.component.resolve(type); if (component) { // Check whether a give Type has respective NG def (ɵcmp) and compile if def is // missing. That might happen in case a class without any Angular decorators extends another // class where Component/Directive/Pipe decorator is defined. if (isComponentDefPendingResolution(type) || !type.hasOwnProperty(ɵNG_COMP_DEF)) { this.pendingComponents.add(type); } this.seenComponents.add(type); // Keep track of the module which declares this component, so later the component's scope // can be set correctly. If the component has already been recorded here, then one of several // cases is true: // * the module containing the component was imported multiple times (common). // * the component is declared in multiple modules (which is an error). // * the component was in 'declarations' of the testing module, and also in an imported module // in which case the module scope will be TestingModuleOverride.DECLARATION. // * overrideTemplateUsingTestingModule was called for the component in which case the module // scope will be TestingModuleOverride.OVERRIDE_TEMPLATE. // // If the component was previously in the testing module's 'declarations' (meaning the // current value is TestingModuleOverride.DECLARATION), then `moduleType` is the component's // real module, which was imported. This pattern is understood to mean that the component // should use its original scope, but that the testing module should also contain the // component in its scope. if (!this.componentToModuleScope.has(type) || this.componentToModuleScope.get(type) === TestingModuleOverride.DECLARATION) { this.componentToModuleScope.set(type, moduleType); } return; } const directive = this.resolvers.directive.resolve(type); if (directive) { if (!type.hasOwnProperty(ɵNG_DIR_DEF)) { this.pendingDirectives.add(type); } this.seenDirectives.add(type); return; } const pipe = this.resolvers.pipe.resolve(type); if (pipe && !type.hasOwnProperty(ɵNG_PIPE_DEF)) { this.pendingPipes.add(type); return; } } queueTypesFromModulesArray(arr) { // Because we may encounter the same NgModule while processing the imports and exports of an // NgModule tree, we cache them in this set so we can skip ones that have already been seen // encountered. In some test setups, this caching resulted in 10X runtime improvement. const processedNgModuleDefs = new Set(); const queueTypesFromModulesArrayRecur = (arr) => { for (const value of arr) { if (Array.isArray(value)) { queueTypesFromModulesArrayRecur(value); } else if (hasNgModuleDef(value)) { const def = value.ɵmod; if (processedNgModuleDefs.has(def)) { continue; } processedNgModuleDefs.add(def); // Look through declarations, imports, and exports, and queue // everything found there. this.queueTypeArray(maybeUnwrapFn(def.declarations), value); queueTypesFromModulesArrayRecur(maybeUnwrapFn(def.imports)); queueTypesFromModulesArrayRecur(maybeUnwrapFn(def.exports)); } else if (isModuleWithProviders(value)) { queueTypesFromModulesArrayRecur([value.ngModule]); } } }; queueTypesFromModulesArrayRecur(arr); } // When module overrides (via `TestBed.overrideModule`) are present, it might affect all modules // that import (even transitively) an overridden one. For all affected modules we need to // recalculate their scopes for a given test run and restore original scopes at the end. The goal // of this function is to collect all affected modules in a set for further processing. Example: // if we have the following module hierarchy: A -> B -> C (where `->` means `imports`) and module // `C` is overridden, we consider `A` and `B` as affected, since their scopes might become // invalidated with the override. collectModulesAffectedByOverrides(arr) { const seenModules = new Set(); const affectedModules = new Set(); const calcAffectedModulesRecur = (arr, path) => { for (const value of arr) { if (Array.isArray(value)) { // If the value is an array, just flatten it (by invoking this function recursively), // keeping "path" the same. calcAffectedModulesRecur(value, path); } else if (hasNgModuleDef(value)) { if (seenModules.has(value)) { // If we've seen this module before and it's included into "affected modules" list, mark // the whole path that leads to that module as affected, but do not descend into its // imports, since we already examined them before. if (affectedModules.has(value)) { path.forEach(item => affectedModules.add(item)); } continue; } seenModules.add(value); if (this.overriddenModules.has(value)) { path.forEach(item => affectedModules.add(item)); } // Examine module imports recursively to look for overridden modules. const moduleDef = value[ɵNG_MOD_DEF]; calcAffectedModulesRecur(maybeUnwrapFn(moduleDef.imports), path.concat(value)); } } }; calcAffectedModulesRecur(arr, []); return affectedModules; } maybeStoreNgDef(prop, type) { if (!this.initialNgDefs.has(type)) { const currentDef = Object.getOwnPropertyDescriptor(type, prop); this.initialNgDefs.set(type, [prop, currentDef]); } } storeFieldOfDefOnType(type, defField, fieldName) { const def = type[defField]; const originalValue = def[fieldName]; this.defCleanupOps.push({ object: def, fieldName, originalValue }); } /** * Clears current components resolution queue, but stores the state of the queue, so we can * restore it later. Clearing the queue is required before we try to compile components (via * `TestBed.compileComponents`), so that component defs are in sync with the resolution queue. */ clearComponentResolutionQueue() { if (this.originalComponentResolutionQueue === null) { this.originalComponentResolutionQueue = new Map(); } clearResolutionOfComponentResourcesQueue().forEach((value, key) => this.originalComponentResolutionQueue.set(key, value)); } /* * Restores component resolution queue to the previously saved state. This operation is performed * as a part of restoring the state after completion of the current set of tests (that might * potentially mutate the state). */ restoreComponentResolutionQueue() { if (this.originalComponentResolutionQueue !== null) { restoreComponentResolutionQueue(this.originalComponentResolutionQueue); this.originalComponentResolutionQueue = null; } } restoreOriginalState() { // Process cleanup ops in reverse order so the field's original value is restored correctly (in // case there were multiple overrides for the same field). forEachRight(this.defCleanupOps, (op) => { op.object[op.fieldName] = op.originalValue; }); // Restore initial component/directive/pipe defs this.initialNgDefs.forEach((value, type) => { const [prop, descriptor] = value; if (!descriptor) { // Delete operations are generally undesirable since they have performance implications // on objects they were applied to. In this particular case, situations where this code // is invoked should be quite rare to cause any noticeable impact, since it's applied // only to some test cases (for example when class with no annotations extends some // @Component) when we need to clear 'ɵcmp' field on a given class to restore // its original state (before applying overrides and running tests). delete type[prop]; } else { Object.defineProperty(type, prop, descriptor); } }); this.initialNgDefs.clear(); this.moduleProvidersOverridden.clear(); this.restoreComponentResolutionQueue(); // Restore the locale ID to the default value, this shouldn't be necessary but we never know ɵsetLocaleId(ɵDEFAULT_LOCALE_ID); } compileTestModule() { class RootScopeModule { } ɵcompileNgModuleDefs(RootScopeModule, { providers: [...this.rootProviderOverrides], }); const ngZone = new NgZone({ enableLongStackTrace: true }); const providers = [ { provide: NgZone, useValue: ngZone }, { provide: Compiler, useFactory: () => new R3TestCompiler(this) }, ...this.providers, ...this.providerOverrides, ]; const imports = [RootScopeModule, this.additionalModuleTypes, this.imports || []]; // clang-format off ɵcompileNgModuleDefs(this.testModuleType, { declarations: this.declarations, imports, schemas: this.schemas, providers, }, /* allowDuplicateDeclarationsInRoot */ true); // clang-format on this.applyProviderOverridesToModule(this.testModuleType); } get injector() { if (this._injector !== null) { return this._injector; } const providers = []; const compilerOptions = this.platform.injector.get(COMPILER_OPTIONS); compilerOptions.forEach(opts => { if (opts.providers) { providers.push(opts.providers); } }); if (this.compilerProviders !== null) { providers.push(...this.compilerProviders); } // TODO(ocombe): make this work with an Injector directly instead of creating a module for it class CompilerModule { } ɵcompileNgModuleDefs(CompilerModule, { providers }); const CompilerModuleFactory = new ɵNgModuleFactory(CompilerModule); this._injector = CompilerModuleFactory.create(this.platform.injector).injector; return this._injector; } // get overrides for a specific provider (if any) getSingleProviderOverrides(provider) { const token = getProviderToken(provider); return this.providerOverridesByToken.get(token) || null; } getProviderOverrides(providers) { if (!providers || !providers.length || this.providerOverridesByToken.size === 0) return []; // There are two flattening operations here. The inner flatten() operates on the metadata's // providers and applies a mapping function which retrieves overrides for each incoming // provider. The outer flatten() then flattens the produced overrides array. If this is not // done, the array can contain other empty arrays (e.g. `[[], []]`) which leak into the // providers array and contaminate any error messages that might be generated. return flatten(flatten(providers, (provider) => this.getSingleProviderOverrides(provider) || [])); } getOverriddenProviders(providers) { if (!providers || !providers.length || this.providerOverridesByToken.size === 0) return []; const flattenedProviders = flatten(providers); const overrides = this.getProviderOverrides(flattenedProviders); const overriddenProviders = [...flattenedProviders, ...overrides]; const final = []; const seenOverriddenProviders = new Set(); // We iterate through the list of providers in reverse order to make sure provider overrides // take precedence over the values defined in provider list. We also filter out all providers // that have overrides, keeping overridden values only. This is needed, since presence of a // provider with `ngOnDestroy` hook will cause this hook to be registered and invoked later. forEachRight(overriddenProviders, (provider) => { const token = getProviderToken(provider); if (this.providerOverridesByToken.has(token)) { if (!seenOverriddenProviders.has(token)) { seenOverriddenProviders.add(token); // Treat all overridden providers as `{multi: false}` (even if it's a multi-provider) to // make sure that provided override takes highest precedence and is not combined with // other instances of the same multi provider. final.unshift(Object.assign(Object.assign({}, provider), { multi: false })); } } else { final.unshift(provider); } }); return final; } hasProviderOverrides(providers) { return this.getProviderOverrides(providers).length > 0; } patchDefWithProviderOverrides(declaration, field) { const def = declaration[field]; if (def && def.providersResolver) { this.maybeStoreNgDef(field, declaration); const resolver = def.providersResolver; const processProvidersFn = (providers) => this.getOverriddenProviders(providers); this.storeFieldOfDefOnType(declaration, field, 'providersResolver'); def.providersResolver = (ngDef) => resolver(ngDef, processProvidersFn); } } } function initResolvers() { return { module: new NgModuleResolver(), component: new ComponentResolver(), directive: new DirectiveResolver(), pipe: new PipeResolver() }; } function hasNgModuleDef(value) { return value.hasOwnProperty('ɵmod'); } function maybeUnwrapFn(maybeFn) { return maybeFn instanceof Function ? maybeFn() : maybeFn; } function flatten(values, mapFn) { const out = []; values.forEach(value => { if (Array.isArray(value)) { out.push(...flatten(value, mapFn)); } else { out.push(mapFn ? mapFn(value) : value); } }); return out; } function getProviderField(provider, field) { return provider && typeof provider === 'object' && provider[field]; } function getProviderToken(provider) { return getProviderField(provider, 'provide') || provider; } function isModuleWithProviders(value) { return value.hasOwnProperty('ngModule'); } function forEachRight(values, fn) { for (let idx = values.length - 1; idx >= 0; idx--) { fn(values[idx], idx); } } function invalidTypeError(name, expectedType) { return new Error(`${name} class doesn't have @${expectedType} decorator or is missing metadata.`); } class R3TestCompiler { constructor(testBed) { this.testBed = testBed; } compileModuleSync(moduleType) { this.testBed._compileNgModuleSync(moduleType); return new ɵNgModuleFactory(moduleType); } compileModuleAsync(moduleType) { return __awaiter(this, void 0, void 0, function* () { yield this.testBed._compileNgModuleAsync(moduleType); return new ɵNgModuleFactory(moduleType); }); } compileModuleAndAllComponentsSync(moduleType) { const ngModuleFactory = this.compileModuleSync(moduleType); const componentFactories = this.testBed._getComponentFactories(moduleType); return new ModuleWithComponentFactories(ngModuleFactory, componentFactories); } compileModuleAndAllComponentsAsync(moduleType) { return __awaiter(this, void 0, void 0, function* () { const ngModuleFactory = yield this.compileModuleAsync(moduleType); const componentFactories = this.testBed._getComponentFactories(moduleType); return new ModuleWithComponentFactories(ngModuleFactory, componentFactories); }); } clearCache() { } clearCacheFor(type) { } getModuleId(moduleType) { const meta = this.testBed._getModuleResolver().resolve(moduleType); return meta && meta.id || undefined; } } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Whether test modules should be torn down by default. * Currently disabled for backwards-compatibility reasons. */ const TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT = false; /** * An abstract class for inserting the root test component element in a platform independent way. * * @publicApi */ class TestComponentRenderer { insertRootElement(rootElementId) { } removeAllRootElements() { } } /** * @publicApi */ const ComponentFixtureAutoDetect = new InjectionToken('ComponentFixtureAutoDetect'); /** * @publicApi */ const ComponentFixtureNoNgZone = new InjectionToken('ComponentFixtureNoNgZone'); /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ let _nextRootElementId = 0; /** * @description * Configures and initializes environment for unit testing and provides methods for * creating components and services in unit tests. * * TestBed is the primary api for writing unit tests for Angular applications and libraries. * * Note: Use `TestBed` in tests. It will be set to either `TestBedViewEngine` or `TestBedRender3` * according to the compiler used. */ class TestBedRender3 { constructor() { // Properties this.platform = null; this.ngModule = null; this._compiler = null; this._testModuleRef = null; this._activeFixtures = []; this._globalCompilationChecked = false; } /** * Initialize the environment for testing with a compiler factory, a PlatformRef, and an * angular module. These are common to every test in the suite. * * This may only be called once, to set up the common providers for the current test * suite on the current platform. If you absolutely need to change the providers, * first use `resetTestEnvironment`. * * Test modules and platforms for individual platforms are available from * '@angular//testing'. * * @publicApi */ static initTestEnvironment(ngModule, platform, summariesOrOptions) { const testBed = _getTestBedRender3(); testBed.initTestEnvironment(ngModule, platform, summariesOrOptions); return testBed; } /** * Reset the providers for the test injector. * * @publicApi */ static resetTestEnvironment() { _getTestBedRender3().resetTestEnvironment(); } static configureCompiler(config) { _getTestBedRender3().configureCompiler(config); return TestBedRender3; } /** * Allows overriding default providers, directives, pipes, modules of the test injector, * which are defined in test_injector.js */ static configureTestingModule(moduleDef) { _getTestBedRender3().configureTestingModule(moduleDef); return TestBedRender3; } /** * Compile components with a `templateUrl` for the test's NgModule. * It is necessary to call this function * as fetching urls is asynchronous. */ static compileComponents() { return _getTestBedRender3().compileComponents(); } static overrideModule(ngModule, override) { _getTestBedRender3().overrideModule(ngModule, override); return TestBedRender3; } static overrideComponent(component, override) { _getTestBedRender3().overrideComponent(component, override); return TestBedRender3; } static overrideDirective(directive, override) { _getTestBedRender3().overrideDirective(directive, override); return TestBedRender3; } static overridePipe(pipe, override) { _getTestBedRender3().overridePipe(pipe, override); return TestBedRender3; } static overrideTemplate(component, template) { _getTestBedRender3().overrideComponent(component, { set: { template, templateUrl: null } }); return TestBedRender3; } /** * Overrides the template of the given component, compiling the template * in the context of the TestingModule. * * Note: This works for JIT and AOTed components as well. */ static overrideTemplateUsingTestingModule(component, template) { _getTestBedRender3().overrideTemplateUsingTestingModule(component, template); return TestBedRender3; } static overrideProvider(token, provider) { _getTestBedRender3().overrideProvider(token, provider); return TestBedRender3; } static inject(token, notFoundValue, flags) { return _getTestBedRender3().inject(token, notFoundValue, flags); } /** @deprecated from v9.0.0 use TestBed.inject */ static get(token, notFoundValue = Injector.THROW_IF_NOT_FOUND, flags = InjectFlags.Default) { return _getTestBedRender3().inject(token, notFoundValue, flags); } static createComponent(component) { return _getTestBedRender3().createComponent(component); } static resetTestingModule() { _getTestBedRender3().resetTestingModule(); return TestBedRender3; } static shouldTearDownTestingModule() { return _getTestBedRender3().shouldTearDownTestingModule(); } static tearDownTestingModule() { _getTestBedRender3().tearDownTestingModule(); } /** * Initialize the environment for testing with a compiler factory, a PlatformRef, and an * angular module. These are common to every test in the suite. * * This may only be called once, to set up the common providers for the current test * suite on the current platform. If you absolutely need to change the providers, * first use `resetTestEnvironment`. * * Test modules and platforms for individual platforms are available from * '@angular//testing'. * * @publicApi */ initTestEnvironment(ngModule, platform, summariesOrOptions) { if (this.platform || this.ngModule) { throw new Error('Cannot set base providers because it has already been called'); } // If `summariesOrOptions` is a function, it means that it's // an AOT summaries factory which Ivy doesn't support. TestBedRender3._environmentTeardownOptions = typeof summariesOrOptions === 'function' ? undefined : summariesOrOptions === null || summariesOrOptions === void 0 ? void 0 : summariesOrOptions.teardown; this.platform = platform; this.ngModule = ngModule; this._compiler = new R3TestBedCompiler(this.platform, this.ngModule); } /** * Reset the providers for the test injector. * * @publicApi */ resetTestEnvironment() { this.resetTestingModule(); this._compiler = null; this.platform = null; this.ngModule = null; TestBedRender3._environmentTeardownOptions = undefined; } resetTestingModule() { this.checkGlobalCompilationFinished(); ɵresetCompiledComponents(); if (this._compiler !== null) { this.compiler.restoreOriginalState(); } this._compiler = new R3TestBedCompiler(this.platform, this.ngModule); // We have to chain a couple of try/finally blocks, because each step can // throw errors and we don't want it to interrupt the next step and we also // want an error to be thrown at the end. try { this.destroyActiveFixtures(); } finally { try { if (this.shouldTearDownTestingModule()) { this.tearDownTestingModule(); } } finally { this._testModuleRef = null; this._instanceTeardownOptions = undefined; } } } configureCompiler(config) { if (config.useJit != null) { throw new Error('the Render3 compiler JiT mode is not configurable !'); } if (config.providers !== undefined) { this.compiler.setCompilerProviders(config.providers); } } configureTestingModule(moduleDef) { this.assertNotInstantiated('R3TestBed.configureTestingModule', 'configure the test module'); // Always re-assign the teardown options, even if they're undefined. // This ensures that we don't carry the options between tests. this._instanceTeardownOptions = moduleDef.teardown; this.compiler.configureTestingModule(moduleDef); } compileComponents() { return this.compiler.compileComponents(); } inject(token, notFoundValue, flags) { if (token === TestBedRender3) { return this; } const UNDEFINED = {}; const result = this.testModuleRef.injector.get(token, UNDEFINED, flags); return result === UNDEFINED ? this.compiler.injector.get(token, notFoundValue, flags) : result; } /** @deprecated from v9.0.0 use TestBed.inject */ get(token, notFoundValue = Injector.THROW_IF_NOT_FOUND, flags = InjectFlags.Default) { return this.inject(token, notFoundValue, flags); } execute(tokens, fn, context) { const params = tokens.map(t => this.inject(t)); return fn.apply(context, params); } overrideModule(ngModule, override) { this.assertNotInstantiated('overrideModule', 'override module metadata'); this.compiler.overrideModule(ngModule, override); } overrideComponent(component, override) { this.assertNotInstantiated('overrideComponent', 'override component metadata'); this.compiler.overrideComponent(component, override); } overrideTemplateUsingTestingModule(component, template) { this.assertNotInstantiated('R3TestBed.overrideTemplateUsingTestingModule', 'Cannot override template when the test module has already been instantiated'); this.compiler.overrideTemplateUsingTestingModule(component, template); } overrideDirective(directive, override) { this.assertNotInstantiated('overrideDirective', 'override directive metadata'); this.compiler.overrideDirective(directive, override); } overridePipe(pipe, override) { this.assertNotInstantiated('overridePipe', 'override pipe metadata'); this.compiler.overridePipe(pipe, override); } /** * Overwrites all providers for the given token with the given provider definition. */ overrideProvider(token, provider) { this.assertNotInstantiated('overrideProvider', 'override provider'); this.compiler.overrideProvider(token, provider); } createComponent(type) { const testComponentRenderer = this.inject(TestComponentRenderer); const rootElId = `root${_nextRootElementId++}`; testComponentRenderer.insertRootElement(rootElId); const componentDef = type.ɵcmp; if (!componentDef) { throw new Error(`It looks like '${ɵstringify(type)}' has not been IVY compiled - it has no 'ɵcmp' field`); } // TODO: Don't cast as `InjectionToken`, proper type is boolean[] const noNgZone = this.inject(ComponentFixtureNoNgZone, false); // TODO: Don't cast as `InjectionToken`, proper type is boolean[] const autoDetect = this.inject(ComponentFixtureAutoDetect, false); const ngZone = noNgZone ? null : this.inject(NgZone, null); const componentFactory = new ɵRender3ComponentFactory(componentDef); const initComponent = () => { const componentRef = componentFactory.create(Injector.NULL, [], `#${rootElId}`, this.testModuleRef); return new ComponentFixture(componentRef, ngZone, autoDetect); }; const fixture = ngZone ? ngZone.run(initComponent) : initComponent(); this._activeFixtures.push(fixture); return fixture; } /** * @internal strip this from published d.ts files due to * https://github.com/microsoft/TypeScript/issues/36216 */ get compiler() { if (this._compiler === null) { throw new Error(`Need to call TestBed.initTestEnvironment() first`); } return this._compiler; } /** * @internal strip this from published d.ts files due to * https://github.com/microsoft/TypeScript/issues/36216 */ get testModuleRef() { if (this._testModuleRef === null) { this._testModuleRef = this.compiler.finalize(); } return this._testModuleRef; } assertNotInstantiated(methodName, methodDescription) { if (this._testModuleRef !== null) { throw new Error(`Cannot ${methodDescription} when the test module has already been instantiated. ` + `Make sure you are not using \`inject\` before \`${methodName}\`.`); } } /** * Check whether the module scoping queue should be flushed, and flush it if needed. * * When the TestBed is reset, it clears the JIT module compilation queue, cancelling any * in-progress module compilation. This creates a potential hazard - the very first time the * TestBed is initialized (or if it's reset without being initialized), there may be pending * compilations of modules declared in global scope. These compilations should be finished. * * To ensure that globally declared modules have their components scoped properly, this function * is called whenever TestBed is initialized or reset. The _first_ time that this happens, prior * to any other operations, the scoping queue is flushed. */ checkGlobalCompilationFinished() { // Checking _testNgModuleRef is null should not be necessary, but is left in as an additional // guard that compilations queued in tests (after instantiation) are never flushed accidentally. if (!this._globalCompilationChecked && this._testModuleRef === null) { ɵflushModuleScopingQueueAsMuchAsPossible(); } this._globalCompilationChecked = true; } destroyActiveFixtures() { let errorCount = 0; this._activeFixtures.forEach((fixture) => { try { fixture.destroy(); } catch (e) { errorCount++; console.error('Error during cleanup of component', { component: fixture.componentInstance, stacktrace: e, }); } }); this._activeFixtures = []; if (errorCount > 0 && this.shouldRethrowTeardownErrors()) { throw Error(`${errorCount} ${(errorCount === 1 ? 'component' : 'components')} ` + `threw errors during cleanup`); } } shouldRethrowTeardownErrors() { var _a, _b; const instanceOptions = this._instanceTeardownOptions; const environmentOptions = TestBedRender3._environmentTeardownOptions; // If the new teardown behavior hasn't been configured, preserve the old behavior. if (!instanceOptions && !environmentOptions) { return false; } // Otherwise use the configured behavior or default to rethrowing. return (_b = (_a = instanceOptions === null || instanceOptions === void 0 ? void 0 : instanceOptions.rethrowErrors) !== null && _a !== void 0 ? _a : environmentOptions === null || environmentOptions === void 0 ? void 0 : environmentOptions.rethrowErrors) !== null && _b !== void 0 ? _b : true; } shouldTearDownTestingModule() { var _a, _b, _c, _d; return (_d = (_b = (_a = this._instanceTeardownOptions) === null || _a === void 0 ? void 0 : _a.destroyAfterEach) !== null && _b !== void 0 ? _b : (_c = TestBedRender3._environmentTeardownOptions) === null || _c === void 0 ? void 0 : _c.destroyAfterEach) !== null && _d !== void 0 ? _d : TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT; } tearDownTestingModule() { var _a; // If the module ref has already been destroyed, we won't be able to get a test renderer. if (this._testModuleRef === null) { return; } // Resolve the renderer ahead of time, because we want to remove the root elements as the very // last step, but the injector will be destroyed as a part of the module ref destruction. const testRenderer = this.inject(TestComponentRenderer); try { this._testModuleRef.destroy(); } catch (e) { if (this.shouldRethrowTeardownErrors()) { throw e; } else { console.error('Error during cleanup of a testing module', { component: this._testModuleRef.instance, stacktrace: e, }); } } finally { (_a = testRenderer.removeAllRootElements) === null || _a === void 0 ? void 0 : _a.call(testRenderer); } } } let testBed; function _getTestBedRender3() { return testBed = testBed || new TestBedRender3(); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ function unimplemented() { throw Error('unimplemented'); } /** * Special interface to the compiler only used by testing * * @publicApi */ class TestingCompiler extends Compiler { get injector() { throw unimplemented(); } overrideModule(module, overrides) { throw unimplemented(); } overrideDirective(directive, overrides) { throw unimplemented(); } overrideComponent(component, overrides) { throw unimplemented(); } overridePipe(directive, overrides) { throw unimplemented(); } /** * Allows to pass the compile summary from AOT compilation to the JIT compiler, * so that it can use the code generated by AOT. */ loadAotSummaries(summaries) { throw unimplemented(); } /** * Gets the component factory for the given component. * This assumes that the component has been compiled before calling this call using * `compileModuleAndAllComponents*`. */ getComponentFactory(component) { throw unimplemented(); } /** * Returns the component type that is stored in the given error. * This can be used for errors created by compileModule... */ getComponentFromError(error) { throw unimplemented(); } } TestingCompiler.decorators = [ { type: Injectable } ]; /** * A factory for creating a Compiler * * @publicApi */ class TestingCompilerFactory { } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ let _nextRootElementId$1 = 0; /** * @description * Configures and initializes environment for unit testing and provides methods for * creating components and services in unit tests. * * `TestBed` is the primary api for writing unit tests for Angular applications and libraries. * * Note: Use `TestBed` in tests. It will be set to either `TestBedViewEngine` or `TestBedRender3` * according to the compiler used. */ class TestBedViewEngine { constructor() { this._instantiated = false; this._compiler = null; this._moduleRef = null; this._moduleFactory = null; this._pendingModuleFactory = null; this._compilerOptions = []; this._moduleOverrides = []; this._componentOverrides = []; this._directiveOverrides = []; this._pipeOverrides = []; this._providers = []; this._declarations = []; this._imports = []; this._schemas = []; this._activeFixtures = []; this._testEnvAotSummaries = () => []; this._aotSummaries = []; this._templateOverrides = []; this._isRoot = true; this._rootProviderOverrides = []; this.platform = null; this.ngModule = null; } /** * Initialize the environment for testing with a compiler factory, a PlatformRef, and an * angular module. These are common to every test in the suite. * * This may only be called once, to set up the common providers for the current test * suite on the current platform. If you absolutely need to change the providers, * first use `resetTestEnvironment`. * * Test modules and platforms for individual platforms are available from * '@angular//testing'. */ static initTestEnvironment(ngModule, platform, summariesOrOptions) { const testBed = _getTestBedViewEngine(); testBed.initTestEnvironment(ngModule, platform, summariesOrOptions); return testBed; } /** * Reset the providers for the test injector. */ static resetTestEnvironment() { _getTestBedViewEngine().resetTestEnvironment(); } static resetTestingModule() { _getTestBedViewEngine().resetTestingModule(); return TestBedViewEngine; } /** * Allows overriding default compiler providers and settings * which are defined in test_injector.js */ static configureCompiler(config) { _getTestBedViewEngine().configureCompiler(config); return TestBedViewEngine; } /** * Allows overriding default providers, directives, pipes, modules of the test injector, * which are defined in test_injector.js */ static configureTestingModule(moduleDef) { _getTestBedViewEngine().configureTestingModule(moduleDef); return TestBedViewEngine; } /** * Compile components with a `templateUrl` for the test's NgModule. * It is necessary to call this function * as fetching urls is asynchronous. */ static compileComponents() { return getTestBed().compileComponents(); } static overrideModule(ngModule, override) { _getTestBedViewEngine().overrideModule(ngModule, override); return TestBedViewEngine; } static overrideComponent(component, override) { _getTestBedViewEngine().overrideComponent(component, override); return TestBedViewEngine; } static overrideDirective(directive, override) { _getTestBedViewEngine().overrideDirective(directive, override); return TestBedViewEngine; } static overridePipe(pipe, override) { _getTestBedViewEngine().overridePipe(pipe, override); return TestBedViewEngine; } static overrideTemplate(component, template) { _getTestBedViewEngine().overrideComponent(component, { set: { template, templateUrl: null } }); return TestBedViewEngine; } /** * Overrides the template of the given component, compiling the template * in the context of the TestingModule. * * Note: This works for JIT and AOTed components as well. */ static overrideTemplateUsingTestingModule(component, template) { _getTestBedViewEngine().overrideTemplateUsingTestingModule(component, template); return TestBedViewEngine; } static overrideProvider(token, provider) { _getTestBedViewEngine().overrideProvider(token, provider); return TestBedViewEngine; } static inject(token, notFoundValue, flags) { return _getTestBedViewEngine().inject(token, notFoundValue, flags); } /** @deprecated from v9.0.0 use TestBed.inject */ static get(token, notFoundValue = Injector.THROW_IF_NOT_FOUND, flags = InjectFlags.Default) { return _getTestBedViewEngine().inject(token, notFoundValue, flags); } static createComponent(component) { return _getTestBedViewEngine().createComponent(component); } static shouldTearDownTestingModule() { return _getTestBedViewEngine().shouldTearDownTestingModule(); } static tearDownTestingModule() { _getTestBedViewEngine().tearDownTestingModule(); } /** * Initialize the environment for testing with a compiler factory, a PlatformRef, and an * angular module. These are common to every test in the suite. * * This may only be called once, to set up the common providers for the current test * suite on the current platform. If you absolutely need to change the providers, * first use `resetTestEnvironment`. * * Test modules and platforms for individual platforms are available from * '@angular//testing'. */ initTestEnvironment(ngModule, platform, summariesOrOptions) { if (this.platform || this.ngModule) { throw new Error('Cannot set base providers because it has already been called'); } this.platform = platform; this.ngModule = ngModule; if (typeof summariesOrOptions === 'function') { this._testEnvAotSummaries = summariesOrOptions; TestBedViewEngine._environmentTeardownOptions = undefined; } else { this._testEnvAotSummaries = (summariesOrOptions === null || summariesOrOptions === void 0 ? void 0 : summariesOrOptions.aotSummaries) || (() => []); TestBedViewEngine._environmentTeardownOptions = summariesOrOptions === null || summariesOrOptions === void 0 ? void 0 : summariesOrOptions.teardown; } } /** * Reset the providers for the test injector. */ resetTestEnvironment() { this.resetTestingModule(); this.platform = null; this.ngModule = null; this._testEnvAotSummaries = () => []; TestBedViewEngine._environmentTeardownOptions = undefined; } resetTestingModule() { ɵclearOverrides(); this._aotSummaries = []; this._templateOverrides = []; this._compiler = null; this._moduleOverrides = []; this._componentOverrides = []; this._directiveOverrides = []; this._pipeOverrides = []; this._isRoot = true; this._rootProviderOverrides = []; this._moduleFactory = null; this._pendingModuleFactory = null; this._compilerOptions = []; this._providers = []; this._declarations = []; this._imports = []; this._schemas = []; // We have to chain a couple of try/finally blocks, because each step can // throw errors and we don't want it to interrupt the next step and we also // want an error to be thrown at the end. try { this.destroyActiveFixtures(); } finally { try { if (this.shouldTearDownTestingModule()) { this.tearDownTestingModule(); } } finally { this._moduleRef = null; this._instanceTeardownOptions = undefined; this._instantiated = false; } } } configureCompiler(config) { this._assertNotInstantiated('TestBed.configureCompiler', 'configure the compiler'); this._compilerOptions.push(config); } configureTestingModule(moduleDef) { this._assertNotInstantiated('TestBed.configureTestingModule', 'configure the test module'); if (moduleDef.providers) { this._providers.push(...moduleDef.providers); } if (moduleDef.declarations) { this._declarations.push(...moduleDef.declarations); } if (moduleDef.imports) { this._imports.push(...moduleDef.imports); } if (moduleDef.schemas) { this._schemas.push(...moduleDef.schemas); } if (moduleDef.aotSummaries) { this._aotSummaries.push(moduleDef.aotSummaries); } // Always re-assign the teardown options, even if they're undefined. // This ensures that we don't carry the options between tests. this._instanceTeardownOptions = moduleDef.teardown; } compileComponents() { if (this._moduleFactory || this._instantiated) { return Promise.resolve(null); } const moduleType = this._createCompilerAndModule(); this._pendingModuleFactory = moduleType; return this._compiler.compileModuleAndAllComponentsAsync(moduleType).then(result => { // If the module mismatches by the time the promise resolves, it means that the module has // already been destroyed and a new compilation has started. If that's the case, avoid // overwriting the module factory, because it can cause downstream errors. if (this._pendingModuleFactory === moduleType) { this._moduleFactory = result.ngModuleFactory; this._pendingModuleFactory = null; } }); } _initIfNeeded() { if (this._instantiated) { return; } if (!this._moduleFactory) { try { const moduleType = this._createCompilerAndModule(); this._moduleFactory = this._compiler.compileModuleAndAllComponentsSync(moduleType).ngModuleFactory; } catch (e) { const errorCompType = this._compiler.getComponentFromError(e); if (errorCompType) { throw new Error(`This test module uses the component ${ɵstringify(errorCompType)} which is using a "templateUrl" or "styleUrls", but they were never compiled. ` + `Please call "TestBed.compileComponents" before your test.`); } else { throw e; } } } for (const { component, templateOf } of this._templateOverrides) { const compFactory = this._compiler.getComponentFactory(templateOf); ɵoverrideComponentView(component, compFactory); } const ngZone = new NgZone({ enableLongStackTrace: true, shouldCoalesceEventChangeDetection: false }); const providers = [{ provide: NgZone, useValue: ngZone }]; const ngZoneInjector = Injector.create({ providers: providers, parent: this.platform.injector, name: this._moduleFactory.moduleType.name }); this._moduleRef = this._moduleFactory.create(ngZoneInjector); // ApplicationInitStatus.runInitializers() is marked @internal to core. So casting to any // before accessing it. this._moduleRef.injector.get(ApplicationInitStatus).runInitializers(); this._instantiated = true; } _createCompilerAndModule() { const providers = this._providers.concat([{ provide: TestBed, useValue: this }]); const declarations = [...this._declarations, ...this._templateOverrides.map(entry => entry.templateOf)]; const rootScopeImports = []; const rootProviderOverrides = this._rootProviderOverrides; if (this._isRoot) { class RootScopeModule { } RootScopeModule.decorators = [ { type: NgModule, args: [{ providers: [ ...rootProviderOverrides, ], jit: true, },] } ]; rootScopeImports.push(RootScopeModule); } providers.push({ provide: ɵINJECTOR_SCOPE, useValue: this._isRoot ? 'root' : null }); const imports = [rootScopeImports, this.ngModule, this._imports]; const schemas = this._schemas; class DynamicTestModule { } DynamicTestModule.decorators = [ { type: NgModule, args: [{ providers, declarations, imports, schemas, jit: true },] } ]; const compilerFactory = this.platform.injector.get(TestingCompilerFactory); this._compiler = compilerFactory.createTestingCompiler(this._compilerOptions); for (const summary of [this._testEnvAotSummaries, ...this._aotSummaries]) { this._compiler.loadAotSummaries(summary); } this._moduleOverrides.forEach((entry) => this._compiler.overrideModule(entry[0], entry[1])); this._componentOverrides.forEach((entry) => this._compiler.overrideComponent(entry[0], entry[1])); this._directiveOverrides.forEach((entry) => this._compiler.overrideDirective(entry[0], entry[1])); this._pipeOverrides.forEach((entry) => this._compiler.overridePipe(entry[0], entry[1])); return DynamicTestModule; } _assertNotInstantiated(methodName, methodDescription) { if (this._instantiated) { throw new Error(`Cannot ${methodDescription} when the test module has already been instantiated. ` + `Make sure you are not using \`inject\` before \`${methodName}\`.`); } } inject(token, notFoundValue, flags) { this._initIfNeeded(); if (token === TestBed) { return this; } // Tests can inject things from the ng module and from the compiler, // but the ng module can't inject things from the compiler and vice versa. const UNDEFINED = {}; const result = this._moduleRef.injector.get(token, UNDEFINED, flags); return result === UNDEFINED ? this._compiler.injector.get(token, notFoundValue, flags) : result; } /** @deprecated from v9.0.0 use TestBed.inject */ get(token, notFoundValue = Injector.THROW_IF_NOT_FOUND, flags = InjectFlags.Default) { return this.inject(token, notFoundValue, flags); } execute(tokens, fn, context) { this._initIfNeeded(); const params = tokens.map(t => this.inject(t)); return fn.apply(context, params); } overrideModule(ngModule, override) { this._assertNotInstantiated('overrideModule', 'override module metadata'); this._moduleOverrides.push([ngModule, override]); } overrideComponent(component, override) { this._assertNotInstantiated('overrideComponent', 'override component metadata'); this._componentOverrides.push([component, override]); } overrideDirective(directive, override) { this._assertNotInstantiated('overrideDirective', 'override directive metadata'); this._directiveOverrides.push([directive, override]); } overridePipe(pipe, override) { this._assertNotInstantiated('overridePipe', 'override pipe metadata'); this._pipeOverrides.push([pipe, override]); } overrideProvider(token, provider) { this._assertNotInstantiated('overrideProvider', 'override provider'); this.overrideProviderImpl(token, provider); } overrideProviderImpl(token, provider, deprecated = false) { let def = null; if (typeof token !== 'string' && (def = ɵgetInjectableDef(token)) && def.providedIn === 'root') { if (provider.useFactory) { this._rootProviderOverrides.push({ provide: token, useFactory: provider.useFactory, deps: provider.deps || [] }); } else { this._rootProviderOverrides.push({ provide: token, useValue: provider.useValue }); } } let flags = 0; let value; if (provider.useFactory) { flags |= 1024 /* TypeFactoryProvider */; value = provider.useFactory; } else { flags |= 256 /* TypeValueProvider */; value = provider.useValue; } const deps = (provider.deps || []).map((dep) => { let depFlags = 0 /* None */; let depToken; if (Array.isArray(dep)) { dep.forEach((entry) => { if (entry instanceof Optional) { depFlags |= 2 /* Optional */; } else if (entry instanceof SkipSelf) { depFlags |= 1 /* SkipSelf */; } else { depToken = entry; } }); } else { depToken = dep; } return [depFlags, depToken]; }); ɵoverrideProvider({ token, flags, deps, value, deprecatedBehavior: deprecated }); } overrideTemplateUsingTestingModule(component, template) { this._assertNotInstantiated('overrideTemplateUsingTestingModule', 'override template'); class OverrideComponent { } OverrideComponent.decorators = [ { type: Component, args: [{ selector: 'empty', template, jit: true },] } ]; this._templateOverrides.push({ component, templateOf: OverrideComponent }); } createComponent(component) { this._initIfNeeded(); const componentFactory = this._compiler.getComponentFactory(component); if (!componentFactory) { throw new Error(`Cannot create the component ${ɵstringify(component)} as it was not imported into the testing module!`); } // TODO: Don't cast as `InjectionToken`, declared type is boolean[] const noNgZone = this.inject(ComponentFixtureNoNgZone, false); // TODO: Don't cast as `InjectionToken`, declared type is boolean[] const autoDetect = this.inject(ComponentFixtureAutoDetect, false); const ngZone = noNgZone ? null : this.inject(NgZone, null); const testComponentRenderer = this.inject(TestComponentRenderer); const rootElId = `root${_nextRootElementId$1++}`; testComponentRenderer.insertRootElement(rootElId); const initComponent = () => { const componentRef = componentFactory.create(Injector.NULL, [], `#${rootElId}`, this._moduleRef); return new ComponentFixture(componentRef, ngZone, autoDetect); }; const fixture = !ngZone ? initComponent() : ngZone.run(initComponent); this._activeFixtures.push(fixture); return fixture; } destroyActiveFixtures() { let errorCount = 0; this._activeFixtures.forEach((fixture) => { try { fixture.destroy(); } catch (e) { errorCount++; console.error('Error during cleanup of component', { component: fixture.componentInstance, stacktrace: e, }); } }); this._activeFixtures = []; if (errorCount > 0 && this.shouldRethrowTeardownErrors()) { throw Error(`${errorCount} ${(errorCount === 1 ? 'component' : 'components')} ` + `threw errors during cleanup`); } } shouldRethrowTeardownErrors() { var _a, _b; const instanceOptions = this._instanceTeardownOptions; const environmentOptions = TestBedViewEngine._environmentTeardownOptions; // If the new teardown behavior hasn't been configured, preserve the old behavior. if (!instanceOptions && !environmentOptions) { return false; } // Otherwise use the configured behavior or default to rethrowing. return (_b = (_a = instanceOptions === null || instanceOptions === void 0 ? void 0 : instanceOptions.rethrowErrors) !== null && _a !== void 0 ? _a : environmentOptions === null || environmentOptions === void 0 ? void 0 : environmentOptions.rethrowErrors) !== null && _b !== void 0 ? _b : true; } shouldTearDownTestingModule() { var _a, _b, _c, _d; return (_d = (_b = (_a = this._instanceTeardownOptions) === null || _a === void 0 ? void 0 : _a.destroyAfterEach) !== null && _b !== void 0 ? _b : (_c = TestBedViewEngine._environmentTeardownOptions) === null || _c === void 0 ? void 0 : _c.destroyAfterEach) !== null && _d !== void 0 ? _d : TEARDOWN_TESTING_MODULE_ON_DESTROY_DEFAULT; } tearDownTestingModule() { var _a, _b, _c, _d, _e; // If the module ref has already been destroyed, we won't be able to get a test renderer. if (this._moduleRef === null) { return; } // Resolve the renderer ahead of time, because we want to remove the root elements as the very // last step, but the injector will be destroyed as a part of the module ref destruction. const testRenderer = this.inject(TestComponentRenderer); try { this._moduleRef.destroy(); } catch (e) { if ((_d = (_b = (_a = this._instanceTeardownOptions) === null || _a === void 0 ? void 0 : _a.rethrowErrors) !== null && _b !== void 0 ? _b : (_c = TestBedViewEngine._environmentTeardownOptions) === null || _c === void 0 ? void 0 : _c.rethrowErrors) !== null && _d !== void 0 ? _d : true) { throw e; } else { console.error('Error during cleanup of a testing module', { component: this._moduleRef.instance, stacktrace: e, }); } } finally { (_e = testRenderer === null || testRenderer === void 0 ? void 0 : testRenderer.removeAllRootElements) === null || _e === void 0 ? void 0 : _e.call(testRenderer); } } } /** * @description * Configures and initializes environment for unit testing and provides methods for * creating components and services in unit tests. * * `TestBed` is the primary api for writing unit tests for Angular applications and libraries. * * Note: Use `TestBed` in tests. It will be set to either `TestBedViewEngine` or `TestBedRender3` * according to the compiler used. * * @publicApi */ const TestBed = ɵivyEnabled ? TestBedRender3 : TestBedViewEngine; /** * Returns a singleton of the applicable `TestBed`. * * It will be either an instance of `TestBedViewEngine` or `TestBedRender3`. * * @publicApi */ const getTestBed = ɵivyEnabled ? _getTestBedRender3 : _getTestBedViewEngine; let testBed$1; function _getTestBedViewEngine() { return testBed$1 = testBed$1 || new TestBedViewEngine(); } /** * Allows injecting dependencies in `beforeEach()` and `it()`. * * Example: * * ``` * beforeEach(inject([Dependency, AClass], (dep, object) => { * // some code that uses `dep` and `object` * // ... * })); * * it('...', inject([AClass], (object) => { * object.doSomething(); * expect(...); * }) * ``` * * @publicApi */ function inject(tokens, fn) { const testBed = getTestBed(); // Not using an arrow function to preserve context passed from call site return function () { return testBed.execute(tokens, fn, this); }; } /** * @publicApi */ class InjectSetupWrapper { constructor(_moduleDef) { this._moduleDef = _moduleDef; } _addModule() { const moduleDef = this._moduleDef(); if (moduleDef) { getTestBed().configureTestingModule(moduleDef); } } inject(tokens, fn) { const self = this; // Not using an arrow function to preserve context passed from call site return function () { self._addModule(); return inject(tokens, fn).call(this); }; } } function withModule(moduleDef, fn) { if (fn) { // Not using an arrow function to preserve context passed from call site return function () { const testBed = getTestBed(); if (moduleDef) { testBed.configureTestingModule(moduleDef); } return fn.apply(this); }; } return new InjectSetupWrapper(() => moduleDef); } /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ const _global = (typeof window === 'undefined' ? global : window); // Reset the test providers and the fake async zone before each test. if (_global.beforeEach) { _global.beforeEach(getCleanupHook(false)); } // We provide both a `beforeEach` and `afterEach`, because the updated behavior for // tearing down the module is supposed to run after the test so that we can associate // teardown errors with the correct test. if (_global.afterEach) { _global.afterEach(getCleanupHook(true)); } function getCleanupHook(expectedTeardownValue) { return () => { if (TestBed.shouldTearDownTestingModule() === expectedTeardownValue) { TestBed.resetTestingModule(); resetFakeAsyncZone(); } }; } /** * This API should be removed. But doing so seems to break `google3` and so it requires a bit of * investigation. * * A work around is to mark it as `@codeGenApi` for now and investigate later. * * @codeGenApi */ // TODO(iminar): Remove this code in a safe way. const __core_private_testing_placeholder__ = ''; /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ // This file only reexports content of the `src` folder. Keep it that way. /** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Generated bundle index. Do not edit. */ export { ComponentFixture, ComponentFixtureAutoDetect, ComponentFixtureNoNgZone, InjectSetupWrapper, TestBed, TestComponentRenderer, __core_private_testing_placeholder__, async, discardPeriodicTasks, fakeAsync, flush, flushMicrotasks, getTestBed, inject, resetFakeAsyncZone, tick, waitForAsync, withModule, MetadataOverrider as ɵMetadataOverrider, TestingCompiler as ɵTestingCompiler, TestingCompilerFactory as ɵTestingCompilerFactory, TestBedViewEngine as ɵangular_packages_core_testing_testing_a, TestBedRender3 as ɵangular_packages_core_testing_testing_b, _getTestBedRender3 as ɵangular_packages_core_testing_testing_c }; //# sourceMappingURL=testing.js.map